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1Academic Journal
Source: Известия Томского политехнического университета: Инжиниринг георесурсов, Vol 333, Iss 4, Pp 224-235 (2022)
Известия Томского политехнического университета
Bulletin of the Tomsk Polytechnic UniversitySubject Terms: возобновляемая энергетика, solar energy, northern territories, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, renewable energy, энергоэффективность, photovoltaics, microgrid energy efficiency, солнечная энергия, северные территории, фотоэлектричество, TA703-712, микросети, electronic resource
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2Academic Journal
Authors: Naseer T. Alwan, S. E. Shcheklein, Насир Т. Алван, С. Е. Щеклеин
Contributors: The article was prepared with the financial support of the Government of the Russian Federation (Contract №02.А03.21.0006).
Source: Alternative Energy and Ecology (ISJAEE); № 25-27 (2020); 12-20 ; Альтернативная энергетика и экология (ISJAEE); № 25-27 (2020); 12-20 ; 1608-8298
Subject Terms: удельная стоимость, solar energy, distillation, efficiency, photovoltaics, rotating hollow cylinder, specific cost, солнечная энергия, дистилляция, эффективность, фотоэлектричество, вращающийся полый цилиндр
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Relation: https://www.isjaee.com/jour/article/view/1998/1675; M.T. Chaibi, An overview of solar desalination for domestic and agriculture water needs in remote arid areas, Desalination. 127 (2000) 119–133. https://doi.org/10.1016/S0011-9164(99)00197-6.; S. Senevirathna, S. Ramzan, J. Morgan, A sustainable and fully automated process to treat stored rainwater to meet drinking water quality guidelines, Process Saf. Environ. Prot. 130 (2019) 190–196. https://doi.org/10.1016/j.psep.2019.08.005.; Y. Sayato, WHO Guidelines for Drinking-Water Quality, Eisei Kagaku. 35 (1989) 307–312. https://doi.org/10.1248/jhs1956.35.307.; World Health Organization (WHO), "Guidelines for Drinking-water Quality", Third Edition Incorporating the First and Second Addenda, Vol. 1, Geneva, 2008.; E. Dupont, R. Koppelaar, and H. Jeanmart, “Global available solar energy under physical and energy return on investment constraints,” Applied Energy, vol. 257, no. May 2019, p.113968, 2020.; A. Agrawal, R. S. Rana, P. K. Shrivastava, and R. P. Singh, “a Short Review on Solar Water Distillation for,” no. 1, pp. 27–36, 2016.; L. Swatuk, M. McMorris, C. Leung, Y. Zu, Seeing “invisible water”: Challenging conceptions of water for agriculture, food and human security, Can. J. Dev. Stud. 36 (2015) 24–37. https://doi.org/10.1080/02255189.2015.1011609.; H.E.S. Fath, Solar distillation: a promising alternative for water provision with free energy, simple technology and a clean environment, Desalination. 116 (1998) 45–56. https://doi.org/10.1016/S0011-9164(98)00056-3.; A. Kaushal, Solar stills : A review, 14 (2010) 446– 453. https://doi.org/10.1016/j.rser.2009.05.011.; P. Patel, A.S. Solanki, U.R. Soni, A.R. Patel, A Review to Increase the Performance of Solar Still: Make It Multi Layer Absorber, Int. J. Recent Innov. Trends Comput. Commun. 2 (2014) 173–177.; S.W. Sharshir, Y.M. Ellakany, A.M. Algazzar, A.H. Elsheikh, M.R. Elkadeem, E.M.A. Edreis, A.S. Waly, R. Sathyamurthy, H. Panchal, M.S. Elashry, A mini review of techniques used to improve the tubular solar still performance for solar water desalination, Process Saf. Environ. Prot. 124 (2019) 204–212. https://doi.org/10.1016/j.psep.2019.02.020.; C. M. and A. Yadav, “Water desalination system using solar heat: A review,” Renewable and Sustainable Energy Reviews, vol. 67, pp. 1308– 1330, 2017.; S. W. Sharshir, N. Yang, G. Peng, and A. E. Kabeel, “Factors affecting solar stills productivity and improvement techniques: A detailed review,” Applied Thermal Engineering, vol. 100, pp. 267–284, 2016.; A. F. Muftah, M. A. Alghoul, A. Fudholi, M. M. Abdul-Majeed, and K. Sopian, “Factors affecting basin type solar still productivity: A detailed review,” Renewable and Sustainable Energy Reviews, vol. 32, pp. 430– 447, 2014.; K. Srithar, T. Rajaseenivasan, N. Karthik, M. Periyannan, and M. Gowtham, “Stand alone triple basin solar desalination system with cover cooling and parabolic dish concentrator,” Renewable Energy, vol. 90, pp. 157–165, 2016.; N.T. Alwan, S.E. Shcheklein, O.M. Ali, A practical study of a rectangular basin solar distillation with single slope using paraffin wax (PCM) cells, Int. J. Energy Convers. 7 (2019) 162–170. https://doi.org/10.15866/irecon.v7i4.17862.; Alwan N T, Shcheklein S E and Ali O M 2020 Productivity of enhanced solar still under various environmental conditions in Yekaterinburg city / Russia. IOP Conference Series: Materials Science and Engineering vol 791.; A.S. Abdullah, F.A. Essa, Z.M. Omara, Y. Rashid, L. Hadj-Taieb, G.B. Abdelaziz, A.E. Kabeel, Rotating-drum solar still with enhanced evaporation and condensation techniques: Comprehensive study, Energy Convers. Manag. 199 (2019). https://doi.org/10.1016/j.enconman.2019.112024.; L. Malaeb, K. Aboughali, G.M. Ayoub, Modeling of a modified solar still system with enhanced productivity, Sol. Energy. 125 (2016) 360–372. https://doi.org/10.1016/j.solener.2015.12.025.; A.E. Kabeel, Performance of solar still with a concave wick evaporation surface, Energy. 34 (2009) 1504–1509. https://doi.org/10.1016/j.energy.2009.06.050.; https://www.isjaee.com/jour/article/view/1998
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3Conference
Authors: Alwan, Nasir T., Shcheklein, S. E.
Subject Terms: PHOTOVOLTAICS, АТМОСФЕРА, ФОТОЭЛЕКТРИЧЕСТВО, WATER, ВОДА, ATMOSPHERE
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Access URL: http://elar.urfu.ru/handle/10995/88206
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4Academic Journal
Authors: Ja. Nowotny, T. Bak, D. Chu, S. Fiechter, G. E. Murch, T. N. Veziroglu, Я. Новотны, Т. Бак, Д. Чу, С. Фихтер, Г. Мюрх, Т. Н. Везироглу
Source: Alternative Energy and Ecology (ISJAEE); № 22-24 (2017); 14-24 ; Альтернативная энергетика и экология (ISJAEE); № 22-24 (2017); 14-24 ; 1608-8298
Subject Terms: риформинг метана, climate change, solar hydrogen, hydrogen generation cost, photovoltaic electricity, methane reforming, климатические изменения, солнечный водород, стоимость производства водорода, фотоэлектричество
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Relation: https://www.isjaee.com/jour/article/view/1192/1042; Nowotny J., Bak T, Li W. Photoelectrochemical production of hydrogen by TiO2-based photosensitive oxide semiconductors. Sherif SA, Goswami DY, Stefankos EK, Steinfeld A, editors. Handbook of Hydrogen Energy. Boca Raton: CRC Press; 2014.; Brinkman N., Wang M., Weber T., Darlington T. 2005: http://www1.eere.energy.gov/bioenergy/pdfs/well_to_whe els_analysis.pdf.; Nowotny J., Veziroglu T.N. Impact of hydrogen on the environment. Int. J. Hydrogen Energy, 2012;36:13218.; United Nations commitment to the sustainable practices of higher education institutions initiative: www.uncs2012org/HEI.; US Department of Energy. Energy efficiency and renewable energy – historical gasoline prices www.eia.gov; 20 Aug 2011.; Schoots K., Ferioli F., Kramer G.J., van der Zwaan B.C.C. Learning curves for hydrogen production technology: An assessment of observed cost reductions. Int. J. Hydrogen Energy, 2008;33(11):2630–2645.; DOE hydrogen and fuel cell program: www.hydrogen.gov/h2a_prod_studies.html.; Bockris J.O. Private communication to J. Nowotny; 6 June 2002.; Abdi F.F., Han L., Smets A.H.M., Zemon M., Dam B., van de Krol R. Efficient solar water splitting by enhanced charge separation in a bismuth vanadate-silicon tandem photoelectrode. Nat. Comm., 2013;4. http://dx.doi.org/10.1038/ncomms3195.; Bak T., Nowotny J., Sucher N., Wachsman E. J. Phys. Chem. C. 2011;115:15711.; Nowotny J., Atanacio A.J., Bak T., Chu D., Fiechter S., Ikuma Y., Ionescu M., Kennedy B.J., Majewski P., Murch G.E., Wachsman E.D. Submitted for publication.; TiO2 price, suppliers and manufacturers, http://www.alibaba.com/showroom/TiO2-price.html, [accessed 10.12.13].; Fujishima A., Honda K. Electrochemical Photolysis of Water at a Semiconductor Electrode. Nature, 1972;238:37.; Bartels J.R., Pate M.B., Olson N.K. An economic survey of hydrogen production from conventional and alternative energy sources. Int. J. Hydrogen Energy, 2010;35:8371–8384.; SunShot vision study. US DOE; February 2012 [chapter 4], www.1.eere.energy.gov/solar/sunshot/vision-study.html.; Bazilian M., Onyeji I., Liebreich M., MacGill I., Chase J., Shah J., et al. Re-considering the economics of photovoltaic power. Clean Energy Solution Center; May 2012.; Ogden J.M., Williams R.H. Electrolytic hydrogen from thin-film solar cells. Int. J. Hydrogen Energy, 1990;15:155–69.; Ulset T. Elkem solar silicon http://agderf.sitagen.no/customer/files/Torgeir%20Ulset %20.pdf; 11 June 2013.; Veziroglu T.N. Opening address, 18 world hydrogen energy conference, 16–21 May 2010 [Essen, Germany].; Moskvitch Katia. Buried treasure. New Scientist; August 31 – September 6, 2013. pp. 40–3.; More T. Photosynthetic water oxidation versus photovoltaic electrolysis http://solarfuels.clas.asu.edu/photosyntheticwaterelectrol ysis; 13/05/2011.; https://www.isjaee.com/jour/article/view/1192
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5Book
Authors: Немировский, Илья Абрамович
Subject Terms: фотоэлектричество, теория расчета мощности, термальные воды, водородная энергетика, биоэнергетика
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Relation: Немировский И. А. Современные источники энергии : учеб. пособие / И. А. Немировский; Нац. техн. ун-т "Харків. політехн. ін-т". – Харьков : НТУ "ХПИ", 2015. – 160 с.; http://repository.kpi.kharkov.ua/handle/KhPI-Press/43038
Availability: http://repository.kpi.kharkov.ua/handle/KhPI-Press/43038
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6Conference
Authors: Beloborodov, I. V., Shcheklein, S. E.
Subject Terms: RENEWABLE ENERGY, ВОЗОБНОВЛЯЕМАЯ ЭНЕРГЕТИКА, СОЛНЕЧНАЯ ЭНЕРГЕТИКА, ФОТОЭЛЕКТРИЧЕСТВО, PHOTOELECTRICITY, СЕТЕВАЯ ФОТОЭЛЕКТРИЧЕСКАЯ СТАНЦИЯ, SOLAR ENERGY, GRID-CONNECTED PHOTOVOLTAIC STATION
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Access URL: http://elar.urfu.ru/handle/10995/40571
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7Book
Subject Terms: термальные воды, биоэнергетика, фотоэлектричество, теория расчета мощности, водородная энергетика
File Description: application/pdf
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8Academic Journal
Authors: Тюхов, И.
Subject Terms: РЕСУРСНЫЕ ОГРАНИЧЕНИЯ, ВОЗОБНОВЛЯЕМАЯ ЭНЕРГЕТИКА, ФОТОЭЛЕКТРИЧЕСТВО, СОЛНЕЧНЫЕ ЭЛЕМЕНТЫ, КРЕМНИЕВЫЕ ТЕХНОЛОГИИ
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9Conference
Subject Terms: АТМОСФЕРА, ВОДА, ФОТОЭЛЕКТРИЧЕСТВО, ATMOSPHERE, WATER, PHOTOVOLTAICS
File Description: application/pdf
Relation: Энерго- и ресурсосбережение. Энергообеспечение. Нетрадиционные и возобновляемые источники энергии. Атомная энергетика. — Екатеринбург, 2019; http://elar.urfu.ru/handle/10995/88206
Availability: http://elar.urfu.ru/handle/10995/88206
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10Academic Journal
Source: Известия Московского государственного технического университета МАМИ.
Subject Terms: РЕСУРСНЫЕ ОГРАНИЧЕНИЯ, ВОЗОБНОВЛЯЕМАЯ ЭНЕРГЕТИКА, ФОТОЭЛЕКТРИЧЕСТВО, СОЛНЕЧНЫЕ ЭЛЕМЕНТЫ, КРЕМНИЕВЫЕ ТЕХНОЛОГИИ, 7. Clean energy
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11Conference
Subject Terms: ВОЗОБНОВЛЯЕМАЯ ЭНЕРГЕТИКА, СОЛНЕЧНАЯ ЭНЕРГЕТИКА, СЕТЕВАЯ ФОТОЭЛЕКТРИЧЕСКАЯ СТАНЦИЯ, ФОТОЭЛЕКТРИЧЕСТВО, RENEWABLE ENERGY, SOLAR ENERGY, GRID-CONNECTED PHOTOVOLTAIC STATION, PHOTOELECTRICITY
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Relation: Труды первой научно-технической конференции молодых ученых Уральского энергетического института. — Екатеринбург, 2016.; http://elar.urfu.ru/handle/10995/40571; https://elibrary.ru/item.asp?id=26880468
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12Electronic Resource
Index Terms: АТМОСФЕРА, ВОДА, ФОТОЭЛЕКТРИЧЕСТВО, ATMOSPHERE, WATER, PHOTOVOLTAICS, Conference Paper, info:eu-repo/semantics/conferenceObject, info:eu-repo/semantics/publishedVersion
URL:
http://hdl.handle.net/10995/88206
Энерго- и ресурсосбережение. Энергообеспечение. Нетрадиционные и возобновляемые источники энергии. Атомная энергетика. — Екатеринбург, 2019 -
13Electronic Resource
Index Terms: ВОЗОБНОВЛЯЕМАЯ ЭНЕРГЕТИКА, СОЛНЕЧНАЯ ЭНЕРГЕТИКА, СЕТЕВАЯ ФОТОЭЛЕКТРИЧЕСКАЯ СТАНЦИЯ, ФОТОЭЛЕКТРИЧЕСТВО, RENEWABLE ENERGY, SOLAR ENERGY, GRID-CONNECTED PHOTOVOLTAIC STATION, PHOTOELECTRICITY, Conference Paper, info:eu-repo/semantics/conferenceObject, info:eu-repo/semantics/publishedVersion
URL:
http://hdl.handle.net/10995/40571
Труды первой научно-технической конференции молодых ученых Уральского энергетического института. — Екатеринбург, 2016.
